Ultraviolet And Misting Disinfecting Unit

ABSTRACT

A disinfecting unit and method of operating the same includes a cabinet having a vertical axis, a first lamp coupled to the cabinet directing light in a generally radial direction relative to the vertical axis, a second lamp coupled to the cabinet directing light in at least a partially axial direction relative to the vertical axis and a nebulizer that dispenses disinfecting fluid therethrough.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application is a divisional of U.S. Ser. No. 15/667,969, filed Aug.3, 2017, which is a continuation of U.S. Ser. No. 15/003,456 filed onJan. 21, 2016 (now U.S. Pat. No. 9,750,832), which claims the benefit ofU.S. Ser. No. 62/164,775 filed on May 21, 2015 and U.S. Ser. No.62/107,706 filed on Jan. 26, 2015. The entire disclosures of the aboveapplications are incorporated herein by reference.

FIELD

The present disclosure relates generally to disinfecting units, and morespecifically, to a method and disinfecting system for disinfecting aroom such as an operating room.

BACKGROUND

This section provides background information related to the presentdisclosure which is not necessarily prior art.

Each year in the United States, tens of millions of operations areperformed. Surgical-site infections result in thousands of deaths eachyear. In addition to deaths, infections increase the length of stay, addto costs, and triggers lawsuits. Therefore, effectively disinfectingsurgical sites, patient rooms and other areas requiring disinfection toreduce infections in every way possible is important.

A surgical site, in particular, contains many pieces of equipment, aswell as the physical room itself. Various instruments and devices thatare brought into the surgical-site are typically disinfected prior toentry. However, disinfecting the components within the room, and thestructure of the room, such as the ceilings, walls, and floors must alsobe performed on a regular basis. Performing disinfection is a timeconsuming and labor-intensive process. The disinfection process reducesthe time that the operating room is available for surgeries. Thesefactors reduce the overall use, and thus reduce the revenue from theoperating space.

It would therefore be desirable to provide a system that allows thoroughdisinfecting of a room that is not labor intensive.

SUMMARY

This section provides a general summary of the disclosure, and is not acomprehensive disclosure of its full scope or all of its features.

The present disclosure provides a system that combines a nebulizer andlight disinfecting in a single easy to deploy unit that operatesautonomously once deployed.

In one aspect of the disclosure, a disinfecting unit includes a cabinethaving a vertical axis, a first lamp coupled to the cabinet directinglight in a generally radial direction relative to the vertical axis, asecond lamp coupled to the cabinet directing light in at least apartially axial direction relative to the vertical axis and a nebulizerthat dispenses disinfecting fluid therethrough.

In another aspect of the disclosure, a method includes generating a fogthrough a nebulizer of the disinfecting unit, activating a first lamp todirect light in a generally radial direction relative to the verticalaxis and activating a second lamp directing light in at least apartially axial direction relative to the vertical axis.

In yet another aspect of the disclosure, a method of disinfecting a roomincludes generating a fog through a nebulizer, directing disinfectinglight toward a ceiling of the room, and directing disinfecting lighttoward walls of the room.

Further areas of applicability will become apparent from the descriptionprovided herein. The description and specific examples in this summaryare intended for purposes of illustration only and are not intended tolimit the scope of the present disclosure.

DRAWINGS

The drawings described herein are for illustrative purposes only ofselected examples and not all possible implementations, and are notintended to limit the scope of the present disclosure.

FIG. 1A is a perspective view of a disinfecting unit.

FIG. 1B is a perspective view of the disinfecting unit from the oppositedirection of that shown in FIG. 1A.

FIG. 2 is a perspective view of a disinfecting unit in a partiallyrotated position.

FIG. 3 is a perspective view of a disinfecting unit having top surfacedoors in an open position.

FIG. 4A is a perspective view of a disinfecting unit having a partiallyextended support arm.

FIG. 4B is a perspective view of a disinfecting unit having a supportarm in a fully extended position and lamp arms in an open position. Anentire system relative to a ceiling is also illustrated.

FIG. 4C is a perspective view of a disinfecting unit having the lamparms and lamp supports in a fully extended position.

FIG. 4D is a perspective view of a disinfecting unit in a partiallyrotated position having the support arm and lamp arms in a fullyextended position. FIG. 5 is a top view of a disinfecting unit havingthe top surface doors in an open position.

FIG. 6 is a simplified block diagrammatic view of the disinfecting unit.

FIG. 7 is a flow chart of a method for operating the disinfecting unit.

FIG. 8 is a perspective view of an alternate example of a disinfectingunit having a nebulizer coupled directly to a support arm 102 and havinglongitudinal side doors covering the longitudinal side lamps.

FIG. 9A is a perspective view of a wall mounted disinfecting unit in aclosed position.

FIG. 9B is a perspective view of a disinfecting unit having open doorsprior to deployment.

FIG. 9C is a perspective view of a fully deployed support arm relativeto a disinfecting cabinet.

FIG. 10 is a detailed view of a track and support arm in an at-rest andin a fully-deployed position.

FIG. 11 is an elevational view of a control panel and doors of a room tobe disinfected.

FIG. 12 is a plan view of a ceiling system having disinfecting unitsmounted thereto.

FIG. 13 is a plan view of a ceiling mounted disinfecting unit.

FIG. 14 is a cutaway view of the disinfecting unit illustrated in FIG.13 with the doors removed to expose the disinfecting lamps therein.

FIG. 15 is a side view of a disinfecting unit shown relative to aceiling.

FIG. 16 is a side view of disinfecting lamps extending from a ceilingmounted disinfecting unit housing.

FIG. 17 is a side view of a ceiling mounted disinfecting unit.

Corresponding reference numerals indicate corresponding parts throughoutthe several views of the drawings.

DETAILED DESCRIPTION

Example examples will now be described more fully with reference to theaccompanying drawings.

In the following figures, the same reference numerals will be used toidentify the same components. The drawings are to scale, and thegeometric relationships (e.g., angles, proportions) between elementsshown in the drawings are in accordance with the principles in thepresent disclosure. However, the drawings are provided for illustrativepurposes only and should not be limiting unless set forth in the claimsof the present disclosure. Further, the examples set forth hereinillustrate various alternative features. The various features, however,may be interchanged in the different examples.

Referring now to FIGS. 1A and 1B, a disinfecting unit 10 is illustrated,having a cabinet 12 and a base 14. The cabinet 12 is rotatably coupledto the base 14, as will be further described below. The cabinet 12comprises a top side 20, a first longitudinal side 22, a secondlongitudinal side 24, a first lateral side 26, and a second lateral side28. A bottom side 30 also is used to enclose the cabinet 12. The cabinet12 is used to enclose various components therein for portability. Thetop side 20 has one or more top side doors 34. In this example, two topside doors are illustrated. The top side doors 34 pivot or rotate sothat internal components may extend therefrom, as will be described inmore detail below.

The first longitudinal side 22 includes a panel 38 that is used to holda plurality of disinfecting lamps 40 and their associated sockets 42.The panel 38 may be hinged to provide access to the interior of thecabinet 12 for servicing, adjustments, and the like. The panel 38 mayalso include a protection grill 44, used to protect the lamps 40 frombeing contacted. Guards 46 may extend from the first longitudinal side22 to also help protect the lamps 40 from being contacted.

As shown best in FIG. 1B, the second longitudinal side 24 may also beconfigured in the same way as the first longitudinal side 22 including apanel 38, lamps 40 and guards 46.

The first lateral side 26 may include a nebulizer 50. The nebulizer 50is fluidically coupled to a fogger that may include a fluid reservoirand/or pump disposed within the cabinet 12. In this example, thenebulizer 50 may generate a fog or mist of hydrogen peroxide. Of course,depending upon the desired type and amount of disinfecting othernebulized chemicals may be used.

The second lateral side 28 includes a handle 52. A user interface 56 mayalso be included thereon. The user interface 56 may include a touchscreen or a plurality of buttons for activating the disinfecting unit.The user interface 56 may also be detachable and so that the controllerof the disinfecting unit 10 may be controlled remotely wirelessly.

A power cord 58 is also shown extending from the unit. A cord retainer60 may be disposed on the second lateral side 28 for retaining the powercord 58. The power cord 58 may extend into the cabinet 12 for poweringthe various components disposed therein.

A person sensor 62 may be incorporated on one or more of thelongitudinal sides 22, 24 and/or the lateral sides 26, 28. The personsensor 62 may be a combination of one or more different types ofsensors, such as an infrared sensor, a motion sensor, a radar sensor, orthe like. The person sensor 62 is used for detecting the presence of aperson within the room or area to be disinfected. For example, theprocess may not be allowed to begin the nebulizing portion if a personis detected in the vicinity. Likewise, should a person enter thevicinity during the process, the system may terminate disinfecting usingthe lamps, or disinfecting using the nebulizer. It may be effective touse only one person sensor 62 because the cabinet 12 rotates relative tothe base 14 during the disinfecting process.

The base 14 may have a platform 66 with wheels 68 mounted thereto. Thewheels 68 may include locks 70 for preventing the wheels from rollingduring the disinfecting process.

Referring now to FIG. 2, the disinfecting unit 10 has a vertical axis64. The cabinet 12, as mentioned above, rotates relative to the base 14.The cabinet 12 rotates about the vertical axis 64. This allowsdisinfecting light from the disinfecting lamps 40 to illuminate varioussurfaces around the disinfecting unit and the nebulizer generated fog tospread in different directions throughout the room.

Referring now to FIG. 3, the top side doors 34 are illustrated in anopen position. An actuator 76 is used to open and close the doors 34.The disinfecting unit 10 is an automated unit, and thus, the actuators76 actuate the doors 34 under control of a controller (illustratedbelow) when performing the disinfecting process.

Referring now to FIGS. 4A-4D, the disinfecting unit 10 also includes alamp extension assembly 100. The top side doors 34 are open and the lampextension assembly 100 extends therefrom. The lamp extension assembly100 includes a support arm 102. The support arm 102 telescopes from theinterior of the cabinet 12. The support arm 102 is fixed to the bottomside 30 of the cabinet 12. Thus, the support arm 102 is fixed relativeto the cabinet 12, but the cabinet 12 rotates relative to the base 14.Therefore, the support arm 102 rotates with the cabinet 12 and relativeto the room. In this example, the support arm 102 extends verticallyfrom the interior of the cabinet 12 when the top side doors 34 are open.

The support arm 102 is coupled to at least one lamp arm 104. In thisexample, two lamp arms 104 are set forth. The lamp arms 104 are coupledto a plurality of disinfecting lamps 106. In this example, a lampsupport 108 is located at the end of each lamp arm 104. Thus, the lamparm 104 extends between the lamp support 108 and the support arm 102.

Referring specifically to FIG. 4A, the lamp arms 104 and the lampsupport 108 are in a folded position for storage. In FIG. 4A, only thesupport arm 102 is in a partially extended position.

Referring specifically to FIG. 4B, the support arm 102 is illustrated ina fully extended position. The length of the extension may vary,depending upon the specific circumstances for the disinfecting unit 10.The disinfecting unit 10 that is used in a very high ceiling environmentmay include a support arm 102 that extends greater than a disinfectingunit 10 that is within a lower ceiling environment. However, one unitthat has a programmable height may be used. A ceiling 110 is illustratedadjacent to the disinfecting unit 10 to form a disinfecting system 112.The ceiling 110 may be a non-porous material that does not allow germsor other microbes to hide therein. The ceiling 110 may be a suspendedceiling. The lamp arm 104 may rotate about an axis 118 using a motor120. In this example, the lamp arms 104 rotate in opposite directionsrelative to their respective axes 118.

Referring now specifically to FIG. 4C, the lamp support 108 rotatesabout an axis 122 through the use of a motor 124. Each lamp arm 104 maybe coupled to the lamp support 108 using the motor 124. The motor 124rotates the lamp support 108 about the axis 122. The amount that themotor 124 may rotate the lamp support 108 may vary, depending upon thedesired conditions. Therefore, the lamp support position may beprogrammable. Each lamp support 108 may be at a different angle relativeto the disinfecting unit 10. Depending upon the conditions, this mayprovide an advantage to obtain light directed at various surfaces atdifferent angles. Also, the angle of the lamp support 102 relative tothe disinfecting unit 10 may vary during the process. That is, one ormore lamp supports 108 may be provided at different angles for differenttime periods during the disinfecting process.

Referring now to FIG. 4D, the cabinet 12 is illustrated with the lampsupport 108 extended, and the support arm 102 extended. In this manner,the lamps 106 and the lamps 40 are energized to provide disinfectingaround a particular room or enclosure.

Referring now to FIG. 5, a top view of the disinfecting unit 10 isillustrated with the top side doors 34 in an open position. In thisexample, a disinfectant or fogger tank 130 is illustrated coupled to thenebulizer 50. The fogger tank 130 may include a pump communicatingdisinfecting fluid to the nebulizer 50. A controller 132 is used tocontrol the various functions, including the motors for moving thesupport arm 102, the lamp arm 104, and the lamp support 108. Thecontroller 132 may also be used to control the fogger 130. Thecontroller 132 may also be coupled to the user interface 56.

The power cord 58 is illustrated entering the internal portions of thecabinet 12 through an opening 138. The power cord 58 is coupled to apower distribution unit 134. Each of the electrical components withinthe disinfecting unit 10 may be electrically coupled to the powerdistribution unit 134.

The disinfecting unit 10 also includes a motor 136 that is used torotate the cabinet 12 relative to the base 14. The opening 138 is theposition that corresponds to the vertical axis 64 of FIG. 2 about whichthe cabinet 12 rotates.

Referring now to FIG. 6, a simplified block diagrammatic view of thedisinfecting unit 10 is illustrated. In this example, the controller 132is coupled to the person sensor 62, a user interface 56, and a timer200. The timer 200 is used for timing various time periods for eventsoccurring during the disinfecting process. The timer 200 is illustratedas a separate item, but may be included as part of the controller 132.

The controller 132 is used to control various elements of thedisinfecting unit 10, including the support arm motor 120, the lamp armmotor or motors 124, a cabinet motor 136, the upper door actuator 76,the lamps and lamp ballasts 106, and the fogger 130 and the pumptherein.

The controller 132 may be microprocessor based and may include internalmemory for storing commands to be executed thereby. The controller 132may be programmed using the user interface 56. The controller 132 may bepreprogrammed with one or more disinfecting cycles for a variety ofconditions.

Referring now to FIG. 7, a method for performing disinfecting using thedisinfecting unit 10 illustrated in FIGS. 1-6 is set forth. In steps710, the disinfecting unit is positioned within the room to bedisinfected. In this example, various operating conditions arecontrolled so as the current draw is less than 20 amps. In step 712, thepower cord is plugged to a wall and the room is secured. In step 714, astart cycle is initiated at the disinfecting unit 10. The start cyclemay be initiated at a predetermined time after triggering using the userinterface 56. That is, a person may trigger the unit to start, but thestart time is delayed to allow the person to leave the room to bedisinfected. In step 716, the detection of persons within the area isdetected by the person sensors. When persons are detected, an errormessage 718 may be generated. The error message may be accompanied by abuzzer, bell, or other audible tone or visual indicator such as a strobelight. In step 720, the disinfecting process is stopped. The detectionof persons may be performed continuously during the execution of thevarious other steps set forth below. That is, at any time, the processmay be stopped upon the detection of a person in the vicinity of thedisinfecting unit 10.

When persons are not detected, the fogging cycle begins, and the cabinet12 rotates at step 724. The fogging cycle may take place for variousamounts of time, such as 20 seconds. The amount of time may depend onvarious factors including, but not limited to, the amount of fixtureswithin the room, the room geometry, and the disinfecting chemicals. Instep 726, the cabinet 12 returns to the home position (like FIG. 1A andFIG. 1B), and in step 728 the cabinet 12 remains at the home positionfor a dwell time. In step 730, the fogging cycle is complete.

In step 732, the upper doors 34 illustrated in FIG. 1 are opened. Asmentioned above, the detection of persons may be performed continually.In step 734, the UV lamps are raised by the vertical axis and throughthe use of the support arm 102. In step 736, the UV lamps pivot up andoutwards, using the motor 120. In step 738, the UV lamps and supportsrotate outwards using the motor 124 to a working position. As brieflymentioned above, the working position of the lamp and lamp base may varydepending upon the desired results and various geometries within theroom. These positions may be programmed into the controller. In step740, the UV cycle begins, and the cabinet 12 rotates relative to thebase 14. The UV lamps, including the lamps and lamp support, and thelamps on the longitudinal side panels 38, are activated. In step 742,the UV cycle ends.

In step 744, the cabinet 12 returns to the home position. In step 746,the cool down of the unit in a dwell position is performed. This allowstime for the ultraviolet lamps to cool down before storage. In step 748,the UV lamps rotate inwards to the home position. In step 750 the UVlamps pivot down and inwards. In step 752, the UV lamps lower. In step754 the upper doors close. In step 756 the cycle is complete. It shouldbe noted that various durations of time periods may be associated witheach of the steps, and may vary depending upon various factors in theenvironment in which disinfecting is taking place.

Referring now to FIG. 8, one alternative example of a disinfecting unit810 is set forth. In this example, a nebulizer 812 is located on orcoupled to a support arm 814. The ultraviolet lamps 816 are alsoconfigured without a lamp support, as in the previous example. In thisexample, a lamp receptacle 818 may pivot relative to a lamp arm 820.

Lateral side doors 822 may be used to protect the lateral side lamps824. Lateral side lamps 824 may be located on each lateral side of thedisinfecting unit 810.

The operation of the disinfecting unit 810 is similar, except that thelateral side doors 822 are opened prior to the lateral side lamps 824being activated for disinfecting of a room. The main difference betweenthe method set forth in FIG. 7 and that which would be used for thedisinfecting unit 810 of FIG. 8, is that the support arm 814 would beextended prior to fogging of the area.

The lamp arms 820 rotate around a vertical axis 830 during operation.The arms 820 extend out of the disinfecting unit 810 in the direction ofthe axis 830 (vertically) when in use.

Referring now to FIGS. 9A-9C, a wall mounted disinfecting unit 910 isillustrated. In this example, a wall cabinet 912 has doors 914 thatopen. A track 916 extends from the cabinet 912. The track 916 may belocated on, or suspended from, a ceiling of the room. FIG. 9B shows asupport arm 924 that houses a nebulizer 926 and has lamp arms 928 thatalso extend therefrom.

In FIG. 9B, the doors 914 are opened prior to the support arm 924 movingthe lamp arms 928, the nebulizer 926, and the disinfecting lamps 930,therefrom. The track 916 may also conceal a chain or belt mechanism formoving the support arm 924 relative to the track 916. Of course, a motormounted to the support arm may be used to move the support arm.

The lamp arms 928 are used to support disinfecting lamps 930. One set ofdisinfecting lamps extend from each lamp arm 928. In this example, thedisinfecting lamps 930 may pivot relative to the lamp arms 928 and thesupport arm 924 may rotate around its axis to position the lamp arms 928at a desired area of the room. A heater and tank 932 are used to providethe disinfecting fluid through conduits (not shown) in the track and thesupport 924 to provide the nebulizer 926 with disinfecting fluid.

Referring now to FIG. 10, details of the track 916, support arm 924,lamp arms 928, and the disinfecting lamps 930 are illustrated. Theleft-most portion of FIG. 10 illustrates the internal structure of thedisinfecting unit in an at-rest and in-cabinet position. The cabinet wasremoved to enhance clarity. At the right-most portion of FIG. 10, thesupport arm 924 is telescopically extended in a vertical direction. Thelamp arms 928 are also telescopically extended, but in a horizontaldirection. The disinfecting lamps 930 are also rotated relative to thelamp arms 928 into a disinfecting position.

A plurality of motors 934 may be used to rotate the disinfecting lamps930 into a desired position. As well, a motor 936 coupled to the supportarm 924, may be used to rotate the support arm and position the lamparms 928 to the desired position.

An up/down limiter 938 may be used to move and limit the movement of thesupport arm 924 in a vertical direction.

Referring now to FIG. 11, an operating room may have doors 1110 with adoor locking mechanism 1112. The door locking mechanism 1112 may becontrolled by a control panel 1114. Likewise, the control panel 1114 maybe used to control the operation of the disinfecting unit 910illustrated in FIGS. 9 and 10 above. A user interface 1116 may be usedto program and activate the system. The user interface 1116 may also bein communication with a people sensor 1118 located within the operatingroom or other room to be disinfected. In this manner, the system willnot start the disinfecting process upon the detection of person by thepeople sensor 1118 in the operating room.

Referring now to FIG. 12, a ceiling 1210 is illustrated having aplurality of ceiling segments 1212. The ceiling segments 1212 may beformed from antimicrobial panels. The ceiling may comprise a pluralityof lights and a plurality of disinfecting units 1214. The disinfectingunits 1214 are illustrated in further detail in the following Figures.In FIG. 13, the disinfecting unit has cover doors 1216. In FIG. 14, aplurality of lamp holders 1410 are illustrated. The lamp holders 1410may be in communication with a motor 1412. The motors 1412 may be usedto rotate the lamp holders 1410 relative to the ceiling 1210. That is,the lamp holders 1410 may be rotated out of the housing 1416 so that thelamps 1420 extend below the ceiling 1210. The housing 1416 may berecessed into the ceiling 1210, as illustrated in FIG. 15. In FIG. 16, alamp holder 1410 is rotated out of the housing 1416 so that thedisinfecting lamps 1420 extend in a perpendicular direction to theceiling. In FIG. 17, one of the lamp holders 1410 is not extended outfrom the housing 1416. However, in operation, each lamp holder 1410 mayextend from the housing beneath the ceiling line 1210.

The foregoing description of the examples has been provided for purposesof illustration and description. It is not intended to be exhaustive orto limit the disclosure. Individual elements or features of a particularexample are generally not limited to that particular example, but, whereapplicable, are interchangeable and can be used in a selected example,even if not specifically shown or described. The same may also be variedin many ways. Such variations are not to be regarded as a departure fromthe disclosure, and all such modifications are intended to be includedwithin the scope of the disclosure.

1. A disinfecting unit comprising: a cabinet comprising a vertical axis;a first lamp coupled to the cabinet directing light in a generallyradial direction relative to the vertical axis; a second lamp coupled tothe cabinet directing light in at least a partially axial directionrelative to the vertical axis; and a nebulizer that dispensesdisinfecting fluid therethrough.
 2. The disinfecting unit of claim 1wherein the cabinet is rotatably coupled to a base, the cabinet rotatedon the base using a motor coupled thereto.
 3. The disinfecting unit ofclaim 2 wherein the base comprises a plurality of wheels.
 4. Thedisinfecting unit of claim 1 further comprising a support arm coupled tothe cabinet, said support arm coupled to the second lamp.
 5. Thedisinfecting unit of claim 4 wherein the support arm comprises atelescopic support arm.
 6. The disinfecting unit of claim 4 wherein thesupport arm rotates relative to a base coupled to the cabinet.
 7. Thedisinfecting unit of claim 4 wherein the support arm is not rotatablerelative to a base coupled to the cabinet.
 8. The disinfecting unit ofclaim 1 wherein the first lamp comprises a first plurality of lamps andthe second lamp comprises a second plurality of lamps.
 9. Thedisinfecting unit of claim 1 wherein the cabinet has a plurality ofsides one of which a first side comprises the first lamp and a secondside comprises a third lamp.
 10. The disinfecting unit of claim 1wherein the cabinet has a pair of longitudinal sides, a firstlongitudinal side comprising the first lamp and a second longitudinalside comprising a third lamp.
 11. The disinfecting unit of claim 1wherein the nebulizer is coupled to the cabinet.
 12. The disinfectingunit of claim 1 wherein the cabinet comprises a plurality of doors in atop side enclosing a support arm coupled to the second lamp.
 13. Thedisinfecting unit of claim 1 further comprising a fourth lamp, saidsecond lamp and the fourth lamp are coupled to a support arm, the secondlamp and the fourth lamp are independently aimed.
 14. The disinfectingunit of claim 1 further comprising a user interface coupled to thecabinet.
 15. The disinfecting unit of claim 1 wherein the first lampcomprises a first ultraviolet lamp and the second lamp comprises asecond ultraviolet lamp and the nebulizer comprises a hydrogen peroxidenebulizer.
 16. The disinfecting unit of claim 1 further comprising apump and a disinfectant tank in fluid communication with the nebulizer.17. The disinfecting unit of claim 1 wherein the first lamp is coupledto a first side of the cabinet, the second lamp is coupled to a supportarm, a third lamp is coupled to a second side of the cabinet and afourth lamp is coupled to the support arm and is individuallypositionable relative to the second lamp.
 18. A system comprising: aceiling system; and the disinfecting unit as recited in claim
 1. 19. Thesystem of claim 18 wherein the ceiling system comprises a non-porousmaterial.
 20. The system of claim 18 wherein the nebulizer is coupled tothe cabinet through a support arm.
 21. The system of claim 20 whereinthe support arm is coupled to a track extending from the cabinet.
 22. Amethod of operating a disinfecting unit having a vertical axiscomprising: generating a fog through a nebulizer of the disinfectingunit; activating a first lamp to direct light in a generally radialdirection relative to the vertical axis; and activating a second lampdirecting light in at least a partially axial direction relative to thevertical axis.
 23. The method of claim 22, wherein activating the firstlamp and the second lamp are performed after generating the fog.
 24. Themethod of claim 22, wherein activating the first lamp and the secondlamp are performed a predetermined dwell time after generating the fog.25. The method of claim 22, further comprising opening top side doorsafter terminating generating the fog.
 26. The method of claim 22,wherein generating the fog comprises pumping hydrogen peroxide throughthe nebulizer.
 27. The method of claim 22, further comprising rotatingthe disinfecting unit.
 28. The method of claim 22, further comprisingprior to activating the second lamp, extending an arm coupled to thesecond lamp from a cabinet of the disinfecting unit, and furthercomprising deactivating the second lamp and retracting the second lampand the arm into the cabinet.
 29. The method of claim 28, furthercomprising prior to activating the second lamp, opening top side doorsof the cabinet and closing the top side doors after retracting.
 30. Themethod of claim 28, further comprising activating the first lamp mountedto a first side and a third lamp mounted to a third side prior torotating a cabinet relative to a base and rotating the second lamparound an axis formed by the arm.
 31. The method of claim 22, whereinactivating the second lamp comprises directing light from the secondlamp toward a ceiling of a room.
 32. The method of claim 22, whereinactivating the second lamp comprises directing light from the secondlamp toward a ceiling and an upper wall of a room. 33-40. (canceled)